Intracellular Fate of Nanoparticles with Polydopamine Surface Engineering and a Novel Strategy for Exocytosis-Inhibiting, Lysosome Impairment-Based Cancer Therapy

内吞作用 溶酶体 胞饮病 胞吐 癌细胞 细胞生物学 赫拉 化学 罗特勒林 自噬 纳米医学 细胞内 生物物理学 内体 纳米技术 细胞 癌症 纳米颗粒 生物 材料科学 分泌物 生物化学 信号转导 细胞凋亡 蛋白激酶C 遗传学
作者
Li Ding,Xianbing Zhu,Yiling Wang,Bingyang Shi,Xiang Ling,Houjie Chen,Wenhao Nan,Austin John Barrett,Zilei Guo,Wei Tao,Jun Wu,Xiaojun Shi
出处
期刊:Nano Letters [American Chemical Society]
卷期号:17 (11): 6790-6801 被引量:161
标识
DOI:10.1021/acs.nanolett.7b03021
摘要

Polydopamine (PDA) coating as a bioinspired strategy for nanoparticles (NPs) has been extensively applied in cancer theranostics. However, a cellular-level understanding of nano-biointeraction of these PDA-coated NPs (PDNPs), which drives the fate of them and acts as a critical step to determine their efficacy, still remains unknown. Herein, we utilized the representative mesoporous silica NPs (MSNs) to be coated with PDA and study their nano-bioactivities in cancer cells. HeLa cell line was utilized as a model in this study. The PDNPs were discovered to be internalized through three specific pathways, that is, Caveolae-, Arf6-dependent endocytosis, and Rab34-mediated macropinocytosis (55%, 20% and 37% of uptake inhibition by nystatin, Arf6 knockdown, and rottlerin, respectively). Autophagy-mediated accumulation of PDNPs in lysosomes was observed and the formed PDA shells shedded in the lysosomes. Almost 40% of the NPs were transported out of cells via Rab8/10- and Rab3/26-mediated exocytosis pathways at our tested level. On the basis of these results, a novel combined cancer treatment strategy was further proposed using drug-loaded MSNs-PDA by (i) utilizing naturally intracellular mechanism-controlled PDA shedding for organelle-targeted release of drugs in lysosomes to generate lysosome impairment and (ii) blocking the demonstrated exocytosis pathways for enhanced therapeutic efficacy.
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